Manual

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The first die is the CORE SWAGE (CSW-1-

H). It is used to form a piece of lead to

precise diameter, length and weight. You

can use cut lead wire, or a cast lead core.

Apply a small amount of Corbin Swage

Lube to the cores as you handle them.

There are three bleed holes through the

sides of the die, and its punches are

very close fits to the die bore. They are

the smallest punches in the set and

only fit this die properly.

For power presses, set the bottom

sensor so the pressure stops (red LED

on the sensor goes on) just as the

swaged core is ejected (internal punch

even with the top of the die). Use a knock-

out bar that allows the punch to come just

to the die face, if you have more than one

height of bar with your press (hand

presses use three different heights of bars

for various punch and die lengths).

Set the floating punch holder so the

desired amount of lead is left in the die

when the press stops moving up (position

of the top sensor controls top of stroke on hydraulic

presses, physical end of ram travel is fixed on hand

press).

After making the desired number of cores, clean them in

hot water to remove the swage lube, then

let them dry and insert them into bullet

jackets (if jackets are used). Select a

diameter of external punch that fits the

jacket ID at the point where you want the

core to be after seating. Thicker jackets,

and lighter cores in tapered jackets, both

require a larger diameter external punch

than thinner jackets or heavier bullets

with a tapered commercial jacket. (See

Corbin Handbook for discussion of

proper core/jacket/punch fitting).

The core seating die (CS-1-H) is the

second die in a flat base die set. It is

NOT used when making rebated boattail

bullets: instead, a pair of RBT dies is

used in sequence to seat the core. The

external punch can also be full diameter

for the die in order to make large lead tip

bullets, or have a projecting cone on the

end to make hollow points. The internal

punch can be flat, domed or have a

conical projection to form the mirror

image of that shape in the bullet base.

The correct core seating pressure is normally in the 300 to

500 PSI range. This can vary with the particular caliber,

jacket thickness, and other features of the bullet, so follow

any written instructions provided with the die regarding

the suggested pressure. Always start with the pressure in a

low setting (300 to 500 psi) and increase is slowly until the

jacket expands to just under the diameter you get with a

swaged pure lead slug in the die. Any greater pressure than

this will only stress the die and could bend punches or

break dies, and serves no useful purpose.

Apply a small amount of swaging lube to the outside of

each jacket as you pick it up to insert in the die; the

amount that you get by rolling a drop between finger and

thumb is sufficient in most cases. Lubricant should not be

allowed inside the jacket: that is why the cores were

washed clean before insertion into the jackets.

The final die for an open tip bullet is the

POINT FORMER (PF-1-H). It shapes the

ogive curve on the bullet and gives the bullet

its final diameter. The diameter of the point

form die itself is usually NOT the same as the

bullet, and is designed to match the core

seater, the jacket material and thickness, and

the lead hardness.

Changing these things can change the

bullet diameter and may cause the bullet to

stick or become hard to eject if the die was

not designed for the particular materials

that you use. This is because materials

tend to spring back slightly, by different

amounts depending on their hardness,

thickness and tensile strength, after pressure

has been removed.

The point form die is slightly different from

the others in that the internal punch must

push the bullet out by its nose, and consists

of a spring steel pin mounted in the punch

head. This pin must be retracted from the

main cavity of the die during swaging, or the

tip of the bullet would form around it and

prevent ejection.

When installing the internal punch, make absolutely sure

that the retraction pin goes through the punch head so the

retraction pin projects equally on both sides of the ram,

and that the die is, in fact, screwed down with the end of

the spring wire punch inside the die hole. Otherwise the

pin may fall out of the hole and be collapsed by the end of

the die when the ram goes down, rolling it like a pretzel

inside the ram.

Shape the bullet by slowly lowering the external punch and

pushing the open end first into the die. Eject, examine, and

re-swage until the tip is closed to about the size of the

ejection pin diameter.